RU141334U1 - FLAT FINISHING ELEMENT - Google Patents

Abstract

1. Flat finishing element (11) with rounded or ribbed-wavy in cross section filled with granular material (21) supporting structures (16) in its inner space (15) between the upper and lower facing layers (12, 13) and, respectively, separation layers (18), characterized in that the supporting structures (16) are inseparably connected to the facing and, if necessary, to the separation layers (12, 13; 18), in particular, comprehensively hermetically sealed by means of edging tapes (19), and limit the channels (14) .2. A flat finishing element with rounded or ribbed wavy in cross section filled with granular material (21) supporting structures (16) in its inner space (15) between the upper and lower facing layers (12, 13) and, respectively, the separation layers (18), characterized in that its inner space (15) contains vertical hollow bodies, preferably vertical triangular or hexagonal cross-sectional honeycomb structures, as support structures (16), and that the support structures (16) are inextricably but coupled with cladding and optionally with spacer layers (12, 13; 18), in particular fully hermetically sealed by edging strips (19) .3. A finishing element according to claim 1 or 2, characterized in that the supporting structures (16) are characterized in cross section by a right-angled shape or are characterized by a configuration, starting from a triangular and ending with a sinusoidal. 4. A finishing element according to claims 1 or 2, characterized in that at least one facing or separation layer (12, 13; 18) is provided with moisture resistance, but steam

Description

A utility model relates to a decoration element of the type described below.

As you know, in the case of reconstruction of old buildings, uneven floors or damaged walls are covered with presspan tiles to get an even base for further finishing, for example laying carpet for the floor or applying wallpaper. Of course, the transmission of cabinet noise can be critical when using such a base.

The prior art document DE 19709620 A1, publ. 09/24/1998, in which a finishing element with support structures rounded or ribbed-wavy in cross section in its inner space between the upper and lower facing layers and the separation layer is disclosed.

Also known document DE 2423013 A1, publ. 11/27/1975, in which a flat finishing element with rounded or ribbed-wavy in cross section, supporting structures filled with granular material in its inner space between the upper and lower facing layers and the separation layer is disclosed.

Meanwhile, these solutions are characterized by poor moisture resistance, are not stable enough and withstand loads and require expensive reconstruction or replacement.

Therefore, the present utility model is based on the technical task of creating an absolutely sound-absorbing tiled, stable and load-bearing finishing element, which also has heat-insulating properties and provides a moisture-resistant version of the finishing element, and may also not delay combustion.

This problem is solved using the signs of the independent claims of the utility model formula, while the dependent claims of the utility model formula relate to expedient modifications and improved options.

In accordance with this, the flat finishing element according to the utility model is not made in the form of a massive compacted tile, but in its main embodiment, in the form of a flat hollow body with a wavy or honeycomb supporting structure of the inner space between the lower and upper, respectively, thin facing layer with respect to to the total thickness of the finishing element; and with aggregate made of granular material, in particular in the form of burnt and refined quartz sand, in the channel-like interior space between the facing layers located on both sides. The supporting structures are inseparably connected with the facing and, if necessary, with the separation layers, in particular, comprehensively hermetically sealed by means of edging tapes, and limit the channels.

The air-filled cavities between the granular material of the channel aggregate give the finishing element according to the utility model thermal insulation properties; however, first of all, the relatively high mass of the aggregate has sound-absorbing, therefore, noise-absorbing properties, due to which they very effectively counteract both the propagation of body noise along adjacent cladding layers and the transmission of penetrating noise.

A single-layer or multi-layer on both sides of the separation layers, but in any case parallel to each other and thus limiting the channels, the wavy structure also has a technological advantage in accordance with a utility model that intersects each other with wavy support structures, namely, that all the inner space between the two outer facing layers can be filled without the need for reconstruction with granular material through open on one side no cross-section of the channel tiles in a single operation; while the opposite channel openings are temporarily blocked by mounting on a support, however, are already sealed by gluing a fringing tape. Also, the end holes on the filling side are then sealed by gluing a fringing tape.

According to a preferred improved embodiment of the present utility model, directly moisture-proof material is used for supporting structures and / or cladding and separation layers. If it consists of filled, namely, if possible, relatively highly filled, long-fiber amorphous natural or artificial mineral wool, a viscous cellulose polymer with natural (gelatin or, in particular, starch) glue or aqueous silicate solutions or also with a synthetic resin as a binder means, then in this case the finishing element manifests itself as water-repellent and fire-resistant, while being practically non-flammable even at the edges.

When using a finishing element vertically, for example, as a wall sheathing, in which support structures are attached along the vertical lines of their amplitudes to the facing and, respectively, separation layers, the channels of wavy structures filled with granular material should preferably be installed horizontally. In this case, with a local damage to the facing layer, for example, as a result of driving a nail, the channel section located on it should not pass through it.

Such a restriction becomes unnecessary if, with a significant increase in the mechanical load capacity of such, respectively, fire-resistant and water-resistant finishing elements, in which the wavy layers of the supporting structures running crosswise or parallel to each other are oriented not parallel to the facing and separation layers, but across them. With a honeycomb supporting structure that opens to the facing layers, the amplitude vertices of the supporting structures no longer adhere to the adjacent layers or have any other one-piece connection, and their channels are closed by facing and separation layers. Therefore, the channel cavity in the inner space of the finishing element is now not parallel, but perpendicular to the facing and separation layers. Short, mutually supportive through their forming support structures are extremely stiff, and they remain so in case of fire, if they are made, as mentioned, of mineral or cellulose fibers. These favorable mechanical properties increase even more if, instead of the triangular or sinusoidal support structures located on the edge between the facing and separation layers, a rack structure of standing hollow bodies is used, preferably in the most dense circular parquet laying, namely in the form standing triangular or hexagonal in cross section of honeycomb structures.

The schematic diagram of an example implementation of the finishing element according to the utility model in its main embodiment and the description following it serve as an example illustrative explanation of the solution according to the utility model. The only figure in the graphic material shows such a finishing element, shown in a somewhat overestimated size in the form of a sketch, with an oblique view of the relatively not yet sealed end side.

In a boardwalk flat element 11 shown as a sketch, between the lower cladding layer 12 and the upper cladding layer 13 there is an inner space 15 with channels 14 running parallel to each other 14. When the finishing element 11 is installed vertically, the channels 14 extend horizontally. They are limited relative to each other by longitudinally extending wavy support structures 16, which, in any case, are adjacent by their vertical lines 17 to the inner surfaces of the cladding layers 12 and, accordingly, 13.

In this case, we are talking about two-layer supporting structures 16, namely, the separation layer 18, which on both sides runs parallel to the facing layers 12, 13. The diagram shows an example of two approximately triangular in cross-section of the supporting structures 16; however, such support structures 16 may likewise also be sinusoidal in cross section or are characterized in cross section by a bent at right angle shape.

Facing and separation layers 12, 13, 18, as well as their supporting structures 16 are made of lightweight thin materials, such as cellulose. The vertical lines 17 of the supporting structures 16 are connected to the adjacent facing and, under certain conditions, the separation layers 12, 23, 18 with a geometric closure or, preferably, with a material closure, in particular glued to ensure moisture resistance.

The ready-to-use finishing element 11 is completely tightly sealed with a moisture-proof edging tape 19 (adhesive tapes stretched over the edges), preferably with the sealing protective layers 20 being laid on at least one of the outer surfaces of both facing layers 12, 13. Sealed materials may be varnishes or the like, moisture-proof protective layers; however, it is preferable that the synthetic films are applied or inserted on at least one side. In the interest of providing a good indoor climate, preference is given to waterproof, but diffusion-open materials made, for example, of polytetrafluoroethylene. In principle, the separation layer 18 will be sufficient to cover with a thin elongated ePTFE membrane to thereby give the finishing element 11 a generally moisture-proof but vapor-permeable property.

The visible side of the end surface shown here in cross section is still free to provide access for filling the channels 14 with granular material 21, which is then also hermetically sealed tightly.

Therefore, the tile-flat finishing element 11 for coating floors and walls, for example, during the reconstruction of old buildings is provided according to the utility model with heat-insulating and sound-absorbing properties if its internal space 15 between the outer facing layers 12, 13 and, when if necessary, the dividing layers 18 are filled with forming channels, approximately rounded or ribbed wavy supporting structures 16, moreover, formed as a result of which are separated from each other and the passage Suitable parallel channels 14 are filled with a coarse granular material 21 of relatively high density. The supporting structures 16 along the vertical lines 17 are hermetically connected to the layers 12, 13 and, if necessary, 18; the inner space 15 between them is hermetically sealed with the help of the surrounding edging tapes 19, if necessary, under the cladding also with the use of liquid-tight, moisture-proof, but vapor-permeable protective layers 20, at least on one of the layers 12, 13 or, when necessary, 18. During vertical installation of these facing elements 11, the channels 14 filled with granular material pass horizontally.

List of items

11 - finishing element;

12 - lower facing layer;

13 - upper facing layer;

14 - channels (15 along 17);

15 - internal space (between 12 and 13):

16 - supporting structures (in 15);

17 - vertical lines (16, 14);

18 - separation layer (at 15; between 12-13 and, respectively, 16-16);

19 - a fringing tape (around 11);

20 - protective layers (12, 13 and / or 18);

21 - granular material (in 14).

Claims (9)

1. Flat finishing element (11) with rounded or ribbed-wavy in cross section filled with granular material (21) supporting structures (16) in its inner space (15) between the upper and lower facing layers (12, 13) and, respectively, separation layers (18), characterized in that the supporting structures (16) are inseparably connected to the facing and, if necessary, to the separation layers (12, 13; 18), in particular, comprehensively hermetically sealed by means of edging tapes (19), and limit the channels (14) . 2. Flat finishing element with rounded or ribbed-wavy in cross section, filled with granular material (21) supporting structures (16) in its inner space (15) between the upper and lower facing layers (12, 13) and, respectively, the separation layers (18 ), characterized in that its internal space (15) contains, as support structures (16), vertical hollow bodies, preferably vertical triangular or hexagonal cross-sectional honeycomb structures, and that the support structures (16) are inseparable they are tightly connected to the facing and, if necessary, to the separation layers (12, 13; 18), in particular, are comprehensively hermetically sealed by means of edging tapes (19). 3. Finishing element according to claim 1 or 2, characterized in that the supporting structures (16) are characterized in cross section by a right-angled shape or are characterized by a configuration, starting from a triangular and ending with a sinusoidal one. 4. Finishing element according to claims 1 or 2, characterized in that at least one facing or separation layer (12, 13; 18) is provided with a moisture-resistant but vapor-permeable protective layer (20). 5. The finishing element according to claim 1 or 2, characterized in that the facing and, if necessary, separation layers (12, 13; 18), as well as the supporting structures (16), consist of cellulose. 6. Finishing element according to claim 1 or 2, characterized in that its facing and separation layers (12, 13; 18) and / or its supporting structures (16) contain long-fiber amorphous natural or artificial mineral wool. 7. Finishing element according to claim 1 or 2, characterized in that the granular material (21) is calcined quartz sand. 8. The finishing element according to claim 2, characterized in that the channels (14) of the supporting structures (16) passing perpendicularly with respect to the facing and separation layers (12, 13; 18) are closed by layers (12, 13; 18). 9. The finishing element according to claim 6, characterized in that its facing and separation layers (12, 13; 18) and / or its supporting structures (16) contain a viscous cellulose polymer with natural (gelatin or, in particular, starch) glue or aqueous silicate solutions, or also a synthetic resin as a binder.

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